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import torch |
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import torch.nn.functional as F |
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import os |
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import sys |
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import cv2 |
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import random |
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import datetime |
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import math |
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import argparse |
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import numpy as np |
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import scipy.io as sio |
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import zipfile |
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from .net_s3fd import s3fd |
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from .bbox import * |
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def detect(net, img, device): |
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img = img - np.array([104, 117, 123]) |
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img = img.transpose(2, 0, 1) |
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img = img.reshape((1,) + img.shape) |
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if 'cuda' in device: |
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torch.backends.cudnn.benchmark = True |
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img = torch.from_numpy(img.copy()).to(device, dtype=torch.float32) |
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BB, CC, HH, WW = img.size() |
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with torch.no_grad(): |
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olist = net(img) |
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bboxlist = [] |
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for i in range(len(olist) // 2): |
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olist[i * 2] = F.softmax(olist[i * 2], dim=1) |
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olist = [oelem.data.cpu() for oelem in olist] |
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for i in range(len(olist) // 2): |
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ocls, oreg = olist[i * 2], olist[i * 2 + 1] |
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FB, FC, FH, FW = ocls.size() |
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stride = 2**(i + 2) |
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anchor = stride * 4 |
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poss = zip(*np.where(ocls[:, 1, :, :] > 0.05)) |
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for Iindex, hindex, windex in poss: |
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axc, ayc = stride / 2 + windex * stride, stride / 2 + hindex * stride |
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score = ocls[0, 1, hindex, windex] |
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loc = oreg[0, :, hindex, windex].contiguous().view(1, 4) |
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priors = torch.Tensor([[axc / 1.0, ayc / 1.0, stride * 4 / 1.0, stride * 4 / 1.0]]) |
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variances = [0.1, 0.2] |
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box = decode(loc, priors, variances) |
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x1, y1, x2, y2 = box[0] * 1.0 |
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bboxlist.append([x1, y1, x2, y2, score]) |
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bboxlist = np.array(bboxlist) |
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if 0 == len(bboxlist): |
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bboxlist = np.zeros((1, 5)) |
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return bboxlist |
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def batch_detect(net, imgs, device): |
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imgs = imgs - np.array([104, 117, 123]) |
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imgs = imgs.transpose(0, 3, 1, 2) |
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if 'cuda' in device: |
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torch.backends.cudnn.benchmark = True |
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imgs = torch.from_numpy(imgs.copy()).to(device, dtype=torch.float32) |
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BB, CC, HH, WW = imgs.size() |
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with torch.no_grad(): |
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olist = net(imgs) |
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bboxlist = [] |
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for i in range(len(olist) // 2): |
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olist[i * 2] = F.softmax(olist[i * 2], dim=1) |
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olist = [oelem.data.cpu() for oelem in olist] |
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for i in range(len(olist) // 2): |
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ocls, oreg = olist[i * 2], olist[i * 2 + 1] |
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FB, FC, FH, FW = ocls.size() |
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stride = 2**(i + 2) |
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anchor = stride * 4 |
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poss = zip(*np.where(ocls[:, 1, :, :] > 0.05)) |
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for Iindex, hindex, windex in poss: |
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axc, ayc = stride / 2 + windex * stride, stride / 2 + hindex * stride |
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score = ocls[:, 1, hindex, windex] |
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loc = oreg[:, :, hindex, windex].contiguous().view(BB, 1, 4) |
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priors = torch.Tensor([[axc / 1.0, ayc / 1.0, stride * 4 / 1.0, stride * 4 / 1.0]]).view(1, 1, 4) |
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variances = [0.1, 0.2] |
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box = batch_decode(loc, priors, variances) |
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box = box[:, 0] * 1.0 |
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bboxlist.append(torch.cat([box, score.unsqueeze(1)], 1).cpu().numpy()) |
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bboxlist = np.array(bboxlist) |
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if 0 == len(bboxlist): |
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bboxlist = np.zeros((1, BB, 5)) |
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return bboxlist |
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def flip_detect(net, img, device): |
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img = cv2.flip(img, 1) |
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b = detect(net, img, device) |
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bboxlist = np.zeros(b.shape) |
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bboxlist[:, 0] = img.shape[1] - b[:, 2] |
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bboxlist[:, 1] = b[:, 1] |
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bboxlist[:, 2] = img.shape[1] - b[:, 0] |
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bboxlist[:, 3] = b[:, 3] |
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bboxlist[:, 4] = b[:, 4] |
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return bboxlist |
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def pts_to_bb(pts): |
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min_x, min_y = np.min(pts, axis=0) |
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max_x, max_y = np.max(pts, axis=0) |
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return np.array([min_x, min_y, max_x, max_y]) |
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